using System;
using System.Collections;
using System.Collections.Generic;
using System.Globalization;
using System.Reflection;
using System.Reflection.Emit;
using System.Text;
using Server;

namespace Server.Commands.Generic
{
	public interface IConditional
	{
		bool Verify( object obj );
	}

	public interface ICondition
	{
		// Invoked during the constructor
		void Construct( TypeBuilder typeBuilder, ILGenerator il, int index );

		// Target object will be loaded on the stack
		void Compile( MethodEmitter emitter );
	}

	public sealed class TypeCondition : ICondition
	{
		public static TypeCondition Default = new TypeCondition();

		void ICondition.Construct( TypeBuilder typeBuilder, ILGenerator il, int index )
		{
		}

		void ICondition.Compile( MethodEmitter emitter )
		{
			// The object was safely cast to be the conditionals type
			// If it's null, then the type cast didn't work...

			emitter.LoadNull();
			emitter.Compare( OpCodes.Ceq );
			emitter.LogicalNot();
		}
	}

	public sealed class PropertyValue
	{
		private Type m_Type;
		private object m_Value;
		private FieldInfo m_Field;

		public Type Type
		{
			get { return m_Type; }
		}

		public object Value
		{
			get { return m_Value; }
		}

		public FieldInfo Field
		{
			get { return m_Field; }
		}

		public bool HasField
		{
			get { return ( m_Field != null ); }
		}

		public PropertyValue( Type type, object value )
		{
			m_Type = type;
			m_Value = value;
		}

		public void Load( MethodEmitter method )
		{
			if ( m_Field != null )
			{
				method.LoadArgument( 0 );
				method.LoadField( m_Field );
			}
			else if ( m_Value == null )
			{
				method.LoadNull( m_Type );
			}
			else
			{
				if ( m_Value is int )
					method.Load( (int) m_Value );
				else if ( m_Value is long )
					method.Load( (long) m_Value );
				else if ( m_Value is float )
					method.Load( (float) m_Value );
				else if ( m_Value is double )
					method.Load( (double) m_Value );
				else if ( m_Value is char )
					method.Load( (char) m_Value );
				else if ( m_Value is bool )
					method.Load( (bool) m_Value );
				else if ( m_Value is string )
					method.Load( (string) m_Value );
				else if ( m_Value is Enum )
					method.Load( (Enum) m_Value );
				else
					throw new InvalidOperationException( "Unrecognized comparison value." );
			}
		}

		public void Acquire( TypeBuilder typeBuilder, ILGenerator il, string fieldName )
		{
			if ( m_Value is string )
			{
				string toParse = (string) m_Value;

				if ( !m_Type.IsValueType && toParse == "null" )
				{
					m_Value = null;
				}
				else if ( m_Type == typeof( string ) )
				{
					if ( toParse == @"@""null""" )
						toParse = "null";

					m_Value = toParse;
				}
				else if ( m_Type.IsEnum )
				{
					m_Value = Enum.Parse( m_Type, toParse, true );
				}
				else
				{
					MethodInfo parseMethod = null;
					object[] parseArgs = null;

					MethodInfo parseNumber = m_Type.GetMethod(
						"Parse",
						BindingFlags.Public | BindingFlags.Static,
						null,
						new Type[] { typeof( string ), typeof( NumberStyles ) },
						null
					);

					if ( parseNumber != null )
					{
						NumberStyles style = NumberStyles.Integer;

						if ( Insensitive.StartsWith( toParse, "0x" ) )
						{
							style = NumberStyles.HexNumber;
							toParse = toParse.Substring( 2 );
						}

						parseMethod = parseNumber;
						parseArgs = new object[] { toParse, style };
					}
					else
					{
						MethodInfo parseGeneral = m_Type.GetMethod(
							"Parse",
							BindingFlags.Public | BindingFlags.Static,
							null,
							new Type[] { typeof( string ) },
							null
						);

						parseMethod = parseGeneral;
						parseArgs = new object[] { toParse };
					}

					if ( parseMethod != null )
					{
						m_Value = parseMethod.Invoke( null, parseArgs );

						if ( !m_Type.IsPrimitive )
						{
							m_Field = typeBuilder.DefineField(
								fieldName,
								m_Type,
								FieldAttributes.Private | FieldAttributes.InitOnly
							);

							il.Emit( OpCodes.Ldarg_0 );

							il.Emit( OpCodes.Ldstr, toParse );

							if ( parseArgs.Length == 2 ) // dirty evil hack :-(
								il.Emit( OpCodes.Ldc_I4, (int) parseArgs[1] );

							il.Emit( OpCodes.Call, parseMethod );
							il.Emit( OpCodes.Stfld, m_Field );
						}
					}
					else
					{
						throw new InvalidOperationException(
							String.Format(
								"Unable to convert string \"{0}\" into type '{1}'.",
								m_Value,
								m_Type
							)
						);
					}
				}
			}
		}
	}

	public abstract class PropertyCondition : ICondition
	{
		protected Property m_Property;
		protected bool m_Not;

		public PropertyCondition( Property property, bool not )
		{
			m_Property = property;
			m_Not = not;
		}

		public abstract void Construct( TypeBuilder typeBuilder, ILGenerator il, int index );

		public abstract void Compile( MethodEmitter emitter );
	}

	public enum StringOperator
	{
		Equal,
		NotEqual,

		Contains,

		StartsWith,
		EndsWith
	}

	public sealed class StringCondition : PropertyCondition
	{
		private StringOperator m_Operator;
		private PropertyValue m_Value;

		private bool m_IgnoreCase;

		public StringCondition( Property property, bool not, StringOperator op, object value, bool ignoreCase )
			: base( property, not )
		{
			m_Operator = op;
			m_Value = new PropertyValue( property.Type, value );

			m_IgnoreCase = ignoreCase;
		}

		public override void Construct( TypeBuilder typeBuilder, ILGenerator il, int index )
		{
			m_Value.Acquire( typeBuilder, il, "v" + index );
		}

		public override void Compile( MethodEmitter emitter )
		{
			bool inverse = false;

			string methodName;

			switch ( m_Operator )
			{
				case StringOperator.Equal:
					methodName = "Equals";
					break;

				case StringOperator.NotEqual:
					methodName = "Equals";
					inverse = true;
					break;

				case StringOperator.Contains:
					methodName = "Contains";
					break;

				case StringOperator.StartsWith:
					methodName = "StartsWith";
					break;

				case StringOperator.EndsWith:
					methodName = "EndsWith";
					break;

				default:
					throw new InvalidOperationException( "Invalid string comparison operator." );
			}

			if ( m_IgnoreCase || methodName == "Equals" )
			{
				Type type = ( m_IgnoreCase ? typeof( Insensitive ) : typeof( String ) );

				emitter.BeginCall(
					type.GetMethod(
						methodName,
						BindingFlags.Public | BindingFlags.Static,
						null,
						new Type[]
						{
							typeof( string ),
							typeof( string )
						},
						null
					)
				);

				emitter.Chain( m_Property );
				m_Value.Load( emitter );

				emitter.FinishCall();
			}
			else
			{
				Label notNull = emitter.CreateLabel();
				Label moveOn = emitter.CreateLabel();

				LocalBuilder temp = emitter.AcquireTemp( m_Property.Type );

				emitter.Chain( m_Property );

				emitter.StoreLocal( temp );
				emitter.LoadLocal( temp );

				emitter.BranchIfTrue( notNull );

				emitter.Load( false );
				emitter.Pop();
				emitter.Branch( moveOn );

				emitter.MarkLabel( notNull );
				emitter.LoadLocal( temp );

				emitter.BeginCall(
					typeof( string ).GetMethod(
						methodName,
						BindingFlags.Public | BindingFlags.Instance,
						null,
						new Type[]
						{
							typeof( string )
						},
						null
					)
				);

				m_Value.Load( emitter );

				emitter.FinishCall();

				emitter.MarkLabel( moveOn );
			}

			if ( m_Not != inverse )
				emitter.LogicalNot();
		}
	}

	public enum ComparisonOperator
	{
		Equal,
		NotEqual,
		Greater,
		GreaterEqual,
		Lesser,
		LesserEqual
	}

	public sealed class ComparisonCondition : PropertyCondition
	{
		private ComparisonOperator m_Operator;
		private PropertyValue m_Value;

		public ComparisonCondition( Property property, bool not, ComparisonOperator op, object value )
			: base( property, not )
		{
			m_Operator = op;
			m_Value = new PropertyValue( property.Type, value );
		}

		public override void Construct( TypeBuilder typeBuilder, ILGenerator il, int index )
		{
			m_Value.Acquire( typeBuilder, il, "v" + index );
		}

		public override void Compile( MethodEmitter emitter )
		{
			emitter.Chain( m_Property );

			bool inverse = false;

			bool couldCompare =
			emitter.CompareTo( 1, delegate()
			{
				m_Value.Load( emitter );
			} );

			if ( couldCompare )
			{
				emitter.Load( 0 );

				switch ( m_Operator )
				{
					case ComparisonOperator.Equal:
						emitter.Compare( OpCodes.Ceq );
						break;

					case ComparisonOperator.NotEqual:
						emitter.Compare( OpCodes.Ceq );
						inverse = true;
						break;

					case ComparisonOperator.Greater:
						emitter.Compare( OpCodes.Cgt );
						break;

					case ComparisonOperator.GreaterEqual:
						emitter.Compare( OpCodes.Clt );
						inverse = true;
						break;

					case ComparisonOperator.Lesser:
						emitter.Compare( OpCodes.Clt );
						break;

					case ComparisonOperator.LesserEqual:
						emitter.Compare( OpCodes.Cgt );
						inverse = true;
						break;

					default:
						throw new InvalidOperationException( "Invalid comparison operator." );
				}
			}
			else
			{
				// This type is -not- comparable
				// We can only support == and != operations

				m_Value.Load( emitter );

				switch ( m_Operator )
				{
					case ComparisonOperator.Equal:
						emitter.Compare( OpCodes.Ceq );
						break;

					case ComparisonOperator.NotEqual:
						emitter.Compare( OpCodes.Ceq );
						inverse = true;
						break;

					case ComparisonOperator.Greater:
					case ComparisonOperator.GreaterEqual:
					case ComparisonOperator.Lesser:
					case ComparisonOperator.LesserEqual:
						throw new InvalidOperationException( "Property does not support relational comparisons." );

					default:
						throw new InvalidOperationException( "Invalid operator." );
				}
			}

			if ( m_Not != inverse )
				emitter.LogicalNot();
		}
	}

	public static class ConditionalCompiler
	{
		public static IConditional Compile( AssemblyEmitter assembly, Type objectType, ICondition[] conditions, int index )
		{
			TypeBuilder typeBuilder = assembly.DefineType(
					"__conditional" + index,
					TypeAttributes.Public,
					typeof( object )
				);

			#region Constructor
			{
				ConstructorBuilder ctor = typeBuilder.DefineConstructor(
						MethodAttributes.Public,
						CallingConventions.Standard,
						Type.EmptyTypes
					);

				ILGenerator il = ctor.GetILGenerator();

				// : base()
				il.Emit( OpCodes.Ldarg_0 );
				il.Emit( OpCodes.Call, typeof( object ).GetConstructor( Type.EmptyTypes ) );

				for ( int i = 0; i < conditions.Length; ++i )
					conditions[i].Construct( typeBuilder, il, i );

				// return;
				il.Emit( OpCodes.Ret );
			}
			#endregion

			#region IComparer
			typeBuilder.AddInterfaceImplementation( typeof( IConditional ) );

			MethodBuilder compareMethod;

			#region Compare
			{
				MethodEmitter emitter = new MethodEmitter( typeBuilder );

				emitter.Define(
					/*  name  */ "Verify",
					/*  attr  */ MethodAttributes.Public | MethodAttributes.Virtual,
					/* return */ typeof( bool ),
					/* params */ new Type[] { typeof( object ) } );

				LocalBuilder obj = emitter.CreateLocal( objectType );
				LocalBuilder eq = emitter.CreateLocal( typeof( bool ) );

				emitter.LoadArgument( 1 );
				emitter.CastAs( objectType );
				emitter.StoreLocal( obj );

				Label done = emitter.CreateLabel();

				for ( int i = 0; i < conditions.Length; ++i )
				{
					if ( i > 0 )
					{
						emitter.LoadLocal( eq );

						emitter.BranchIfFalse( done );
					}

					emitter.LoadLocal( obj );

					conditions[i].Compile( emitter );

					emitter.StoreLocal( eq );
				}

				emitter.MarkLabel( done );

				emitter.LoadLocal( eq );

				emitter.Return();

				typeBuilder.DefineMethodOverride(
						emitter.Method,
						typeof( IConditional ).GetMethod(
							"Verify",
							new Type[]
								{
									typeof( object )
								}
						)
					);

				compareMethod = emitter.Method;
			}
			#endregion
			#endregion

			Type conditionalType = typeBuilder.CreateType();

			return (IConditional) Activator.CreateInstance( conditionalType );
		}
	}
}